View
3
Download
0
Category
Preview:
Citation preview
Page | i
THE COURSE STRUCTURE & SYLLABUS OF UNDER GRADUATE
BACHELOR OF SCIENCE
BOTANY
1ST
TO 6
TH Semesters
w.e.f.
Academic Year 2020-21 and Onwards
Under
CHOICE BASED CREDIT SYSTEM [CBCS]
B.Sc. Program with Optional Subject: BOTANY
Page | ii
B.Sc., BOTANY Syllabus under CBCS scheme
(With effect from the academic year 2020-21 onwards)
Sem Part Paper
Code Title of the Paper
Hours/
Week
Marks Subject
Credits IA Exam Total
I
Part – 1
DSC
BOTDSCT1.1
Biodiversity (Microbes, Algae,
Fungi and Archegoniate) 4 20 80 100 3
BOTDSCP1.1 Practical I 3 10 40 50 1
Total : Hours / Credits 7 150 4
II
Part – 1
DSC
BOTDSCT2.1
Plant Ecology and Diversity
of angiosperms 4 20 80 100 3
BOTDSCP2.1 Practical II 3 10 40 50 1
Total : Hours / Credits 7 150 4
B.Sc., BOTANY Syllabus under CBCS scheme
(With effect from the academic year 2021-22 onwards)
Sem Part Paper
Code Title of the Paper
Hours/
Week
Marks Subject
Credits IA Exam Total
III
Part – 1
DSC
BOTDSCT3.1
Plant Anatomy and Embryology
4 20 80 100 3
BOTDSCP3.1 Practical III 3 10 40 50 1
Part – 2
SEC BOTSECT3.2 Herbal technology 2 10 40 50 2
Total : Hours / Credits 9 200 6
IV
Part – 1
DSC
BOTDSCT4.1
Plant Physiology and
Biochemistry
4 20 80 100 3
BOTDSCP4.1 Practical IV 3 10 40 50 1
Part – 2
SEC BOTSECT4.2
Nursery and Gardening 2 10 40 50 2
Total : Hours / Credits 9 200 6
Page | iii
CHOICE BASED CREDIT SYSTEM [CBCS]
B.Sc. Program with Optional Subject: BOTANY
T: Theory, P: Practical, CC/EA: Co-curricular/Extension Activities. AECC: Ability Enhancement Compulsory
Course, DSC: Discipline Specific Course. DSE: Discipline Specific Elective, SEC: Skill Enhancement Course)
Note: Duration of examinations is 03 Hrs for 80 Marks theory and 02 hrs for 40 marks theory. For
practical’s duration of examination is 03 Hrs.
B.Sc., BOTANY Syllabus under CBCS scheme
(With effect from the academic year 2022-23 onwards)
Sem Part Paper
Code Title of Paper
Hours/
Week
Marks Subject
Credits IA Exam Total
V
Part – 1
DSE
BOTDSET5.1 Economic Botany and
Biotechnology 4 20 80 100 3
BOTDSEP5.1 Practical V 3 10 40 50 1
BOTDSET5.2A
(Elective I)
Cell and Molecular Biology
4 20 80 100 3
BOTDSEP5.2A
(Elective I) Practical VIA 3 10 40 50 1
BOTDSET5.2B
(Elective II)
Genetics, Plant Breeding and
Evolution 4 20 80 100 3
BOTDSEP5.2B
(Elective II) Practical VIB 3 10 40 50 1
Part – 2
SEC BOTSECT5.3 Medicinal Botany 2 10 40 50 2
Total : Hours / Credits 16 350 10
Note: Students have to choose either Elective-I or Elective-II
VI
Part – 1
DSE
BOTDSET6.1 Analytical Techniques in
Plants. 4 20 80 100 3
BOTDSEP6.1 Practical VII 3 10 40 50 1
BOTDSET6.2A
(Elective III) Research Methodology 4 20 80 100 3
BOTDSEP6.2A
(Elective III) Practical VIIIA 3 10 40 50 1
BOTDSET6.2B
(Elective IV) Biofertilizers and Organic
Farming 4 20 80 100 3
BOTDSEP6.2B
(Elective IV) Practical VIIIB 3 10 40 50 1
Part – 2
SEC BOTSECT6.3 Ethnobotany 2 10 40 50 2
Total : Hours / Credits 16 350 10
Note: Students have to choose either Elective-III or Elective-IV
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 1
First Semester B.Sc. (Botany)
Paper Code: BOTDSCT1.1 Paper Title: Biodiversity (Microbes, Algae, Fungi and Archegoniate)
Teaching Hours: 4 Hrs / Week Marks: Th-80+IA-20
Total hours: 60 Credits: 3
Unit1:
Viruses : Discovery, general structure, replication (general account), DNA virus (T-phage); Lytic
and lysogenic cycle, RNA virus (TMV); Economic importance;
Bacteria: Discovery, General characteristics and cell structure; Reproduction – vegetative,
asexual and recombination (conjugation, transformation and transduction); Economic importance.
Viral Plant Diseases: TMV. Vein clearing, Dwarfing, Yellowing and BBTV disease.
Bacterial Plant Disease: Citrus canker, Bacterial blight and Crown gall disease.
15 hours
Unit2:
Algae: General characteristics; Ecology and distribution; Range of thallus organization and
reproduction; Classification of algae by smith; Morphology and life-cycles of the following:
Nostoc, Oedogonium, Vaucheria, Volvox, Ectocarpus & Batrachospermum. Economic
importance of algae.
Fungi: Introduction- General characteristics, ecology and significance, range of thallus
organization, cell wall composition , nutrition, reproduction and classification; True Fungi-
General characteristics, ecology and significance, life cycle of Rhizopus (Zygomycota),
Penicillium (Ascomycota), cercospora (Deutoromycota), Puccinia, Agaricus (Basidiomycota);
Fungal Diseases: Late blight of potato, White rust of Albugo candida., Black rust of Puccinia,
Powdery mildew and Early Blight of Tomato.
Symbiotic Associations-Lichens: General account, reproduction and significance;
Mycorrhiza: ectomycorrhiza and endomycorrhiza and their significance 15 hours.
Unit 3:
Introduction to Archegoniate: Unifying features of archegoniates, Transition to land habit,
Alternation of generations.
Bryophytes: General characteristics, adaptations to land habit, Classification, Range of thallus
organization. Classification (up to family), morphology, anatomy and reproduction of Riccia,
Marchantia, Anthoceros and Funaria (Developmental details not to be included). Ecology and
economic importance of bryophytes with special mention of Sphagnum.
15 hours Unit 4:
Pteridophytes: General characteristics, classification, Early land plants (lepidodendron,
Lepidocarpon, Calamites). Classification (up family), morphology, anatomy and reproduction of
Selaginella, Equisetum and Pteris. (Developmental details not to be included). Heterospory and
seed habit, stelar evolution. Ecological and economical importance of Pteridophytes.
Gymnosperms: General characteristics, classification. Classification (up to family), morphology,
anatomy and reproduction of Cycas, Gnetum and Pinus. (Developmental details not to be
included). Ecological and economical importance. 15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 2
Practical
Paper Code: BOTDSCTP1.1 Paper Title: Biodiversity (Microbes, Algae, Fungi and Archegoniate)
Teaching Hours: 3 Hrs / Week Marks: Th-40+IA-10
Credits: 1
1. EMs/Models of viruses – T-Phage and TMV, Line drawing/Photograph of Lytic and Lysogenic
Cycle.
2. Types of Bacteria from temporary/permanent slides/photographs; EM bacterium; Binary Fission; Conjugation; Structure of root nodule.
3. Gram staining
4. Study of vegetative and reproductive structures of Volvox, Nostoc, (electron micrographs), Oedogonium, Vaucheria, Ectocarpus and Batrachospermum through temporary preparations and permanent slides.
5. Rhizopus and Penicillium: Asexual stage from temporary mounts and sexual structures through permanent slides.
6. Cercospora Specimens/photographs and tease mounts.
7. Puccinia: Herbarium specimens of Black Stem Rust of Wheat and infected Barberry leaves; section/tease mounts of spores on Wheat and permanent slides of both the hosts.
8. Agaricus: Specimens of button stage and full grown mushroom; Sectioning of gills of
Agaricus.
9. Lichens: Study of growth forms of lichens (crustose, foliose and fruticose)
10. Mycorrhiza: ectomycorrhiza and endomycorrhiza (Photographs)
11. Marchantia-morphology of thallus, w.m. rhizoids and scales, v.s. thallus through gemma cup,
w.m. gemmae (all temporary slides), v.s. antheridiophore, archegoniophore, L.S. sporophyte (all
permanent slides).
12. Funaria- morphology, w.m. leaf, rhizoids, operculum, peristome, annulus, spores (temporary
slides); permanent slides showing antheridial and archegonial heads, L. S. capsule and
protonema.
13. Selaginella- morphology, w.m. leaf with ligule, T.S. stem, w.m. strobilus, w.m. microsporophyll and megasporophyll (temporary slides), L.S. strobilus (permanent slide).
14. Equisetum- morphology, T.S. internode, L.S. strobilus, T.S. strobilus, w.m. sporangiophore, w.m. spores (wet and dry) (temporary slides); T.s rhizome (permanent slide).
15. Pteris- morphology, T.S. rachis, v.s. sporophyll, w.m. sporangium, w.m. spores (temporary
slides), T.S. rhizome, w.m. prothallus with sex organs and young sporophyte (permanent slide).
16. Cycas-morphology (coralloid roots, bulbil, leaf), T.S. coralloid root, T.S. rachis, v.s. leaflet, v.s.
microsporophyll, w.m. spores (temporary slides), L.S. ovule, T.S. root (permanent slide).
17. Pinus- morphology (long and dwarf shoots, w.m. dwarf shoot, male and female), w.m. dwarf
shoot, T.S. needle, T.S. stem, L.S./T.S. male cone, w.m. microsporophyll, w.m. microspores
(temporary slides), L S. female cone, T. L.S. & R. L.S. stem (permanent slide).
18. Study tour two days compulsory.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 3
Suggested Readings
1. Kumar, H.D. (1999). Introductory Phycology. Affiliated East-West. Press Pvt. Ltd. Delhi. 2nd
edition.
2. Tortora, G.J., Funke, B.R., Case, C.L. (2010). Microbiology: An Introduction, Pearson Benjamin Cummings, U.S.A. 10
thedition.
3. Sethi, I.K. and Walia, S.K. (2011). Text book of Fungi & Their Allies, Mac Millan Publishers Pvt. Ltd.,Delhi.
4. Alexopoulos, C.J., Mims, C.W., Blackwell, M. (1996). Introductory Mycology, John Wiley and Sons (Asia), Singapore. 4
thedition.
5. Raven, P.H., Johnson, G.B., Losos, J.B., Singer, S.R., (2005). Biology. Tata McGraw Hill, Delhi,India.
6. Vashishta, P.C., Sinha, A.K., Kumar, A., (2010). Pteridophyta, S. Chand. Delhi, India.
7. Bhatnagar, S.P. and Moitra, A. (1996). Gymnosperms. New Age International (P) Ltd Publishers, New Delhi, India.
8. Parihar, N.S. (1991). An introduction to Embryophyta. Vol. I. Bryophyta. Central Book Depot, Allahabad.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 4
Second Semester B.Sc. (Botany)
Paper Code: BOTDSCT2.1 Paper Title: Plant Ecology and Diversity of angiosperms
Teaching Hours: 4 Hrs / Week Marks: Th-80+IA-20
Teaching hours: 60 Credits: 3
Unit1:
Atmosphere: Atmosphere gaseous composition and Atmospheric layers.
Ecological factors: Soil, weathering, composition, pedogenesis and soil profile. Water: States
of water in the environment, precipitation types. Light and temperature: Variation Optimal and limiting factors; Shelford law of tolerance. Adaptation of hydrophytes and xerophytes.
15 hours
Unit 2:
Plant Succession: Characters; Ecotone and edge effect; Succession; Hydrosere and Xerosere.
Ecosystem: Structure; energy flow trophic organisation; Food chains and food webs, Ecological
pyramids production and productivity; Biogeochemical cycles; carbon, nitrogen and Phosphorous
cycles.
Phytogeography: Principle, biogeographical zones; Endemism.
15 hours
Unit3
Morphology of Angiosperms: Root, Stem, leaf and its modifications: inflorescence, flower and
fruit.
15 hours
Unit4:
Plant Taxonomy: Introduction, Identication Functions of Herbarium, important herbaria and
botanical gardens of the world and India; Documentation: Flora, Keys: single access and multi-access
Classification
Types of classification-artificial, natural and phylogenetic. Bentham and Hooker
(upto series), Engler and Prantl (upto series).
Taxonomic hierarchy
Ranks, categories and taxonomic groups, Taxonomic evidences from palynology, cytology,
phytochemistry and molecular data.
Botanical nomenclature
Principles and rules (ICN); ranks and names; binominal system, typification, author citation, valid
publication, rejection of names, principle of priority and its limitations.
15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 5
Practical
Paper Code: BOTDSCP2.1 Paper Title: Plant Ecology and Diversity of angiosperms
Teaching Hours: 3 Hrs / Week Marks: Th-40+IA-10
Credits: 1
1. Study of instruments used to measure microclimatic variables: Soil thermometer,
maximum and minimum thermometer, anemometer, psychrometer /hygrometer, rain
gauge and lux meter.
2. Determination of pH, and analysis of two fertile soil samples for carbonates, chlorides,
nitrates, sulphates, organic matter and base deficiency by rapid field test.
3. (a) Study of morphological adaptations of hydrophytes (Submerged, Free floating,
Amphibious and Rooted floating) and xerophytes (succulent and non succulent).
(b)Study of biotic interactions of the following: Stem parasite (Cuscuta), Root parasite
(Orobanche), Epiphytes, Predation (Insectivorous plants)
4. Morphology of Angiosperms: Root, Stem, leaf and its modifications: Inflorescence,
Flower and Fruit. 5. Study of vegetative and floral characters of the following families
(Description,V.S. flower, section of ovary, floral diagram/s, floral formula/e and systematic position according to Bentham & Hooker’s system of classification): Polypetalae: Magnoliaceae, Malvaceae, Rutaceae, Brassicaceae. Gamopetaleae–Rubiaceae, Asteraceae, Apocynaceae, Asclepiadaceae. Apetalae-Euphorbiaceae. Monocot- Poaceae
6. Mounting of a properly dried and pressed specimen of any wild plant with herbarium
Label (Herbarium any 10 to be submitted in the record book).
7. Study tour for minimum 3 days compulsory.
Suggested Readings
1. Kormondy, E.J. (1996). Concepts of Ecology. Prentice Hall, U.S.A. 4
thedition.
2. Sharma, P.D. (2010) Ecology and Environment. Rastogi Publications, Meerut, India. 8th
edition.
3. Simpson, M.G. (2006). Plant Systematics. Elsevier Academic Press, San Diego, CA,
U.S.A.
4. Singh, G. (2012). Plant Systematics: Theory and Practice. Oxford & IBH Pvt. Ltd., New
Delhi. 3rd
edition.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 6
Third Semester B.Sc. (Botany)
Paper Code: BOTDSCT3.1 Paper Title: Plant Anatomy and Embryology
Teaching Hours: 4 Hrs / Week Marks: Th-80+IA-20
Teaching hours: 60 Credits: 3
Unit1:
Tissues: Tunica carpous theory and apical theory, meristems and its types; Simple and
complex tissues.
The tissue system: Epidermal tissue system, Ground and fundamental tissue system and
Vascular or conducting tissue system.
Organ: Structure of dicot and monocot root stem and leaf.
15 hours
Unit 2:
Secondary Growth: Stelar and Extrastelar Secondary growth in root and stem, Wood
(heartwood and sapwood). Abnormal secondary growth in Bignonia, Dracaena and Beet root.
Leaf fall and healing of wounds.
Special tissues: Secretary.
Mechanical tissues in plants
15 hours
Unit3:
Structural organization of flower: Structure of anther and pollen; Structure and
types of ovules; Types of embryo sacs, organization and ultra structure of mature embryo sac.
Pollination and fertilization: Pollination mechanisms and adaptations; Types of pollination: Anemophily, Entemophily, hydrophily. Double fertilization; Endosperm types, structure and functions.
15 hours
Unit 4:
Embryo and endosperm: Dicot and Monocot seed-structure, appendages and dispersal mechanisms. Structure and development of Dicot and Monocot embryo; Embryo- endosperm relationship.
Apomixis and polyembryony: Definition, Classification and practical applications.
15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 7
Practical Paper Code: BOTDSCP3.1 Paper Title: Plant Anatomy and Embryology
Teaching Hours: 3 Hrs / Week Marks: Th-40+IA-10
Credits: 1
1. Study of meristems through permanent slides and photographs.
2. Tissues (parenchyma, collenchyma and sclerenchyma); Macerated xylary elements, Phloem (Permanent slides, photographs)
3. Stem: Monocot: Zea mays; Dicot: Helianthus; Secondary growth: Helianthus
(Permanent slides).
4. Root: Monocot: Zea mays; Dicot: Helianthus; Secondary growth: Helianthus (Permanent slides).
5. Leaf: Dicot and Monocot leaf (Permanent slides).
6. Structure of anther (young and mature), tapetum (amoeboid and secretory) (Permanent slides).
7. Types of ovules: anatropous, orthotropous, circinotropous, amphitropous / campylotropous.
8. Female gametophyte: Polygonum (monosporic) type of Embryo sac Development
(Permanent slides/photographs).
9. Ultrastructure of mature egg apparatus cells through electron micrographs.
10. Pollination types and seed dispersal mechanisms (including appendages, aril,
caruncle) (Photographs ands pecimens).
11. Dissection of embryo/endosperm from developing seeds.
12. Calculation of percentage of germinated pollen in a given medium.
Suggested Readings
1. Bhojwani, S.S. & Bhatnagar, S.P. (2011). Embryology of Angiosperms. Vikas Publication House Pvt. Ltd. New Delhi. 5
thedition.
2. Mauseth, J. D. (1988).Plant Anatomy.The Benjamin/Cummings Publisher, USA.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 8
Third Semester B.Sc. (Botany) Skill Enhancement Course
Paper Code: BOTSECT3.2 Paper Title: Herbal technology
Teaching Hours: 2Hrs / Week Marks: Th-40+IA-10
Teaching Hours: 30 Credits :2
Unit1:
Herbal medicines: History and scope, definition of medical terms and role of
medicinal plants in Siddha systems of medicine; cultivation, harvesting,
processing, storage, marketing and utilization of medicinal plants.
Pharmacognosy: Systematic position medicinal uses of the following herbs in
curing various ailments; Tulsi, Ginger, Fenugreek, Indian Gooseberry and Ashoka.
15 hours
Unit2:
Phytochemistry: Active principles and methods of their testing, identification and
utilization of the medicinal herbs; Catharanthus roseus (cardiotonic), Withania
somnifera (drugs acting on nervous system), Clerodendron phlomoides (anti-
rheumatic) and Centella asiatica (memory booster).
Analytical pharmacognosy: Drug adulteration, types, methods of drug evaluation,
Biological testing of herbal drugs, Phytochemical screening tests for secondary
metabolites (alkaloids, flavonoids, steroids, triterpenoids, phenolic compounds)
Medicinal plant banks micropropagation of important species (Withania
somnifera, neem and tulsi, Herbal foods and future of pharmacognosy.)
15 hours
Suggested Readings
1. Glossary of Indian medicinal plants, R. N. Chopra, S. L. Nayarand I. C. Chopra,
1956. C.S.I.R, New Delhi.
2. The indigenous drugs of India, Kanny, Lall, Deyand Raj Bahadur, 1984.
International Book Distributors.
3. Herbal plants and Drugs Agnes Arber, 1999. Mangal Deep Publications.
4. Ayurvedic drugs and their plant source. V. V. Sivarajan and Balachandran
Indra1994. Oxford IBH publishing Co.
5. Ayurveda and Aromatherapy. Miller, Light and Miller, Bryan, 1998. Banarsi dass, Delhi.
6. Principles of Ayurveda, Anne Green, 2000. Thomsons, London.
7. Pharmacognosy, Dr. C. K. Kokate et al. 1999. Nirali Prakashan.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 9
Fourth Semester B.Sc. (Botany) Paper Code: BOTDSCT4.1 Paper Title: Plant Physiology and Biochemistry
Teaching Hours: 4 Hrs / Week Marks: Th-80+IA-20
Teaching Hours: 60 Credits: 3
Unit 1:
Plant-water relations: Solutions, Suspensions, colloids, True solutions, Molarity, Molar,
Buffer, Molal, pH, Emulsion and Gel. Permeability, Diffusion, Osmosis, Imbibition,
membranes, Endoosmosis, Exoosmosis, osmotic pressure, Turger pressure, Wall pressure,
Relation between O.P, D.P.D and T.P. Importance of water, water potential and its
components;
Transpiration: Transpiration types, Structure of stomata, Types of stomata, stomatal
Movment, Starch sugure Interconversion theory and K+ ion pump theory. significance of
transpiration; Factors affecting transpiration; guttation,
Pathways of water movment: Apoplast and symplast.
Mineral nutrition: Essential elements, macro and micronutrients; Criteria of essentiality
of elements; Role of essential elements; Transport of ions across cell membrane, active and
passive transport, carriers, channels and pumps.
15 hours
Unit 2:
Ascent of sap, translocation of solutes: Theories on Ascent of sap: Root pressure theory
and transpiration pull theory. Composition of phloem sap, girdling experiment; Pressure
flow model; Phloem loading and unloading.
Photosynthesis: Photosynthetic Pigments (Chl a, b, xanthophylls, carotene); Photosystem I and II, reaction center, antenna molecules; Electron transport and mechanism of ATP synthesis; C3, C4 and CAM pathways of carbon fixation; Photorespiration, Blackmen’s law of Limiting factor and factors affecting photosynthesis.
15 hours
Unit3:
Respiration: Aerobic cellular respiration: Glycolysis, TCA cycle, Oxidative
phosphorylation & Pentose Phosphate Pathway. Anaerobic respiration: Alcoholic lactic
acid and acetic acid fermentation amphibolic pathway. Respiratory quotient of
carbohydrate, protein and organic acid.
Enzymes: Structure and properties, Classification, Mechanism of enzyme catalysis Lock
and key model and induced fit model, enzyme inhibition and factors affecting enzyme
activity.
Nitrogen metabolism: Nitrogen cycle, Biological nitrogen fixation; Nitrate and ammonia
assimilation.
15 hours
Unit 4:
Plant growth regulators: Discovery and physiological roles of auxins, gibberellins,
cytokinins, ABA, ethylene. Application of Phytoharmones.
Plant Movements: Photoperiodism (SDP, LDP, Day neutral plants); Phytochrome (discovery
and structure), red and far red light responses on photomorphogenesis; Vernalization.
Structure and classification of Proteins, carbohydrates and Lipids. 15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 10
Practical
Paper Code: BOTDSCP4.1 Paper Title: Plant Physiology and Biochemistry
Teaching Hours: 3 Hrs / Week Marks: Th-40+IA-10
Credits: 1
1. Determination of osmotic potential of plant cell sap by plasmolytic method.
2. Calculation of stomatal index and stomatal frequency of a mesophyte and a
xerophyte.
3. Demonstration of rate of transpiration by Ganong’s photometer / Farmer’s photometer
4. Demonstrate the activity of catalase and study the effect of pH and enzyme
concentration.
5. To study the effect of light intensity and bicarbonate concentration on O2 evolution in
photosynthesis.
6. Comparison of the rate of respiration.
7. Separation of Chlorophyll pigments by paper chromatography.
8. Qualitative test for proteins, carbohydrate and lipids.
9. Demonstration experiments
Bolting.
Effect of auxins on rooting.
Suction due to transpiration.
R.Q. ( Ganong’s respirometer.)
Phototropism.
Seismonastic movements.
Nyctinastic movements.
Suggested Readings
1. Taiz, L., Zeiger, E., (2010). Plant Physiology. Sinauer Associates Inc., U.S.A. 5
th
Edition.
2. Hopkins, W.G., Huner, N.P., (2009). Introduction to Plant Physiology. John Wiley & Sons, U.S.A. 4
th Edition.
3. Bajracharya, D., (1999). Experiments in Plant Physiology- A Laboratory Manual.
Narosa Publishing House, New Delhi.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 11
Fourth Semester B.Sc. (Botany) Skill Enhancement Course
Paper Code: BOTSECT4.2 Paper Title :Nursery and Gardening
Teaching Hours: 2Hrs / Week Marks: Th-40+IA-10
Teaching Hours: 30 Credits :2
Unit 1:
Nursery: Definition, objectives and scope, building up of infrastructure for nursery,
planning and seasonal activities. Planting, direct seeding and transplants.
Seed: Structure and types. Seed dormancy; causes and methods of breaking
dormancy, Seed storage: Seed banks, factors affecting seed viability, genetic erosion,
Seed production technology, seed testing and certification.
Vegetative propagation: Air layering, cutting, selection of cutting, collecting
season, treatment of cutting, rooting medium and planting of cuttings. Hardening of
plants, green house, mist chamber, shed root, shade house and glass house.
15 hours
Unit2:
Gardening: Definition, objectives and scope. Different types of gardening: Landscape
and home gardening, parks and its components. Plant materials and design. Computer
applications in landscaping. Gardening operations: soil laying, manuring, watering,
management of pests and diseases and harvesting.
Sowing/raising of seeds and seedlings - Transplanting of seedlings: Study of
cultivation of different vegetables: cabbage, brinjal, lady’s finger, onion, garlic,
tomatoes, and carrots-Storage and marketing procedures.
15 hours
Suggested Readings
1. Bose T.K. & Mukherjee, D., 1972, Gardening in India, Oxford & IBH
Publishing Co., New Delhi.
2. Sandhu, M. K., 1989, Plant Propagation, Wile Eastern Ltd., Bangalore, Madras.
3. Kumar, N., 1997, Introduction to Horticulture, Rajalakshmi Publications,
Nagercoil.
4. Edmond Musser & Andres, Fundamentals of Horticulture, Mc Graw Hill Book
Co., New Delhi.
5. Agrawal, P.K. 1993, Hand Book of Seed Technology, Dept. of Agriculture and
Cooperation, National Seed Corporation Ltd., New Delhi.
6. Janick Jules. 1979. Horticultural Science. (3rd Ed.), W.H. Freeman and Co., San
Francisco, USA.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 12
Fifth Semester B.Sc. (Botany)
Paper Code: BOTDSET5.1 Paper Title :Economic Botany and Biotechnology
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Teaching Hours:60 Credits :3
Unit1:
Origin of Cultivated Plants: Concept of centers of origin, their importance
with reference to Vavilov’s work.
Cereals: Origin, morphology and uses of Wheat, Jowar and Rice
Legumes: General account with special reference to Gram and Soybean
Pulses: Origin, morphology and uses of Chick pea, Cow pea and Lentil.
15 hours
Unit2:
Spices: General account with special reference to clove and black pepper
(Botanical name, family, part used, morphology and uses)
Beverages: Tea (morphology, processing, uses)
Oils and Fats: General description with special reference to groundnut.
Rubber: General description with special reference to Hevea sp.
Fiber Yielding Plants: General description with special reference to
Cotton (Botanical name, family, part used morphology and uses).
15 hours
Unit 3:
Microbial genetic manipulation: Bacterial transformation, selection of
recombinant and trasformants, genetic improvement of industrial microbes,
nitrogen fixers and fermentation technology.
Immunology: Hybridoma and monoclonal antibodies, ELISA and
Immunodetection. Molecular diagnosis of human disease, Human gene
Therapy.
Plant tissue culture: Micropropagation; haploid production through
androgenesis and gynogenesis; brief account of embryo & endosperm culture with their applications
15 hours
Unit4:
Recombinant DNA Techniques: Biotechnology scope, tools of genetic
engineering, gene cloning techniques, gel electrophoreses, Bioreactor, transgenic
plants. Agro bacterium and retroviruses as natural genetic engineer. Intellectual
property rights and possible ethical risks.
Blotting techniques: Northern, Southern and Western Blotting, DNA Fingerprinting; Molecular DNA markers i.e. RAPD, RFLP, SNPs; DNA
sequencing, PCR and Reverse Transcriptase-PCR.
15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 13
Practical Paper Code: BOTDSEP5.1 Paper Title :Economic Botany and Biotechnology
Teaching Hours: 3Hrs / Week Marks: Th-40+IA-10
Credits :1
1. Study of economically important plants: Wheat, Jowar, Rice, Gram, Soybean,
Black pepper, Clove, Tea, Cotton, Groundnut through specimens. 2. Study of economically important plants: chick pea, cowpea, Clove, Tea, Cotton,
Groundnut and rubber through specimens.
3. Familiarization with basic equipments in tissue culture.
4. Study through photographs: Anther culture and somatic embryogenesis
5. Study through photographs: endosperm and embryo culture; micropropagation.
6. Study of molecular techniques: PCR and Blotting techniques.
7. Demonstration of Gel electrophoresis.
8. Demonstration and comparison of genetically modified plants.(Bt Cotton, Bt Brinjal and Bt,
Tomato)
Suggested Readings
1. Kochhar, S.L. (2011). Economic Botany in the Tropics, MacMillan Publishers India
Ltd., New Delhi. 4thedition.
2. Bhojwani, S.S. and Razdan, M.K., (1996). Plant Tissue Culture: Theory and Practice. Elsevier Science Amsterdam. The Netherlands.
3. Glick, B.R., Pasternak, J.J. (2003). Molecular Biotechnology- Principles and Applications of recombinant DNA. ASM Press, Washington.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 14
Fifth Semester B.Sc. (Botany) Elective I Paper Code: BOTDSET5.2A Paper Title : Cell and Molecular Biology
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Teaching Hours:60 Credits :3
Unit 1:
Techniques in Biology
Principles of microscopy; Light Microscopy; Phase contrast microscopy; Fluorescence microscopy;
Confocal microscopy; Sample Preparation for light microscopy; Electron microscopy (EM)-
Scanning EM and Scanning Transmission EM (STEM); Sample Preparation for electron
microscopy; X-ray diffraction analysis.
Cell as a unit of Life
The Cell Theory; Prokaryotic and eukaryotic cells; Cell size and shape; Eukaryotic Cell components.
Cell Membrane and Cell Wall
The functions of membranes; Models of membrane structure; The fluidity of membranes;
Membrane proteins and their functions; Carbohydrates in the membrane; Faces of the membranes;
Selective permeability of the membranes; Cell wall.
15 Hours
Unit 2:
Mitochondria: Structure, marker enzymes, composition; Semiautonomous nature; Symbiont
hypothesis; Proteins synthesized within mitochondria; mitochondrial DNA.
Chloroplast: Structure, marker enzymes, composition; semi autonomous nature, chloroplast DNA.
ER, Golgi body & Lysosomes: Structures and roles.
Peroxisomes and Glyoxisomes: Structures, composition, functions in animals and plants and
biogenesis.
Nucleus: Nuclear Envelope- structure of nuclear pore complex; chromatin; molecular organization,
DNA packaging in eukaryotes, euchromatin and heterochromatin, nucleolus and ribosome structure
(brief).
15 Hours
Unit 3:
Cell Cycle
Overview of Cell cycle, Mitosis and Meiosis; Molecular controls.
Genetic material Gene concept: DNA: Miescher to Watson and Crick- historic perspective, Griffith’s and Avery’s
transformation experiments, Hershey-Chase bacteriophage experiment, DNA structure, types of
DNA, types of genetic material.
DNA replication (Prokaryotes and eukaryotes): bidirectional replication, semi–conservative,
semi discontinuous RNA priming, Ǿ (theta) mode of replication, replication of linear, ds- DNA,
replicating the end of linear chromosome including replication enzymes.
15 Hours
Unit4:
Transcription (Prokaryotes and Eukaryotes)
Types of structures of RNA (mRNA, tRNA, rRNA), RNA polymerase- various types; Protein
synthesis in Prokaryotes and eukaryotes, genetic code.
Regulation of gene expression
Gene concept and protein synthesis, Prokaryotes: Lac operon and Tryptophan operon; and in Eukaryotes.
15 Hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 15
Practical: Elective I Paper Code: BOTDSE P5.2A Paper Title : Cell and Molecular Biology
Teaching Hours: 3Hrs / Week Marks: Th-40+IA-10
Credits :3
1. To study prokaryotic cells (bacteria), viruses, eukaryotic cells with the help of light
and electron micrographs.
2. Study of the photomicrographs of cell organelles
3. To study the structure of plant cell through temporary mounts.
4. Study of mitosis and meiosis (temporary mounts and permanent slides).
5. Measure the cell size (either length or breadth/diameter) by micrometry.
6. Study the structure of nuclear pore complex by photograph (from Gerald Karp) Study
of special chromosomes (polytene & lampbrush) either by slides or photographs.
7. Preparation of the Karyotype and ideogram from given photograph of somatic
metaphase chromosome.
8. Isolation of DNA from plants.
Suggested Readings
1. Karp, G. 2010. Cell and Molecular Biology: Concepts and Experiments. 6th
Edition. John Wiley & Sons. Inc.
2. De Robertis, E.D.P. and De Robertis, E.M.F.2006. Cell and Molecular Biology.
8th edition. Lippincott Williams and Wilkins, Philadelphia.
3. Cooper, G.M. and Hausman, R.E.2009.The Cell: A Molecular Approach. 5th
edition. ASM Press & Sunderland, Washington, D.C.; Sinauer Associates,
MA.
4. Becker, W. M., Kleinsmith, L.J., Hardin.J. and Bertoni,G.P.2009.TheWorld of the
Cell.7th edition. Pearson Benjamin Cummings Publishing, San Francisco.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 16
Fifth Semester B.Sc. (Botany) Elective II Paper Code: BOTDSET 5.2B Paper Title : Genetics, Plant Breeding and evolution
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Teaching Hours:60 Credits :3
Unit1: Heredity
1. Brief life history of Mendel
2. Terminologies
3. Laws of Inheritance
4. Modified Mandelian Ratios: 2:1-lethal Genes; 1:2:1-Co-dominance,incomplete
dominance; 9:7; 9:4:3; 13:3;12:3:1.
5. Chi Square
6. Pedigree Analysis
7. Cytoplasmic Inheritance: Shell Coiling in Snail, Kappa particles in Paramecium,
leaf variegation in Mirabilis jalapa, Male sterility.
8. Multiple allelism
9. Pleiotropism
10. Chromosome theory of Inheritance.
15 Hours
Unit2:
Sex-determination and Sex-linked Inheritance
Linkage and Crossing over: Linkage: concept & history complete & incomplete linkage, bridges experiment, coupling& repulsion, recombination frequency, linkage maps based on two and three factor crosses. Crossing over: concept and significance, cytological proof of crossing over.
Mutations and Chromosomal Aberrations: Types of mutations, effects of physical &
chemical mutagens. Numerical chromosomal changes: Euploidy, Polyploidy and
Aneuploidy; Structural chromosomal changes: Deletions, Duplications, Inversions
&Translocations. 15 Hours
Unit 3:
Plant Breeding: Introduction and objectives. Breeding systems: modes of reproduction in
crop plants. Important achievements and undesirable consequences of plant breeding.
Methods of crop improvement: Introduction, Centres of origin and domestication of crop
plants, plant genetic resources; Acclimatization; Selection methods: For self pollinated,
cross pollinated and vegetatively propagated plants; Hybridization: For self, cross and
vegetatively propagated plants – Procedure, advantages and limitations.
Crop improvement and breeding: Role of mutations; Polyploidy; Distant hybridization
and role of biotechnology in crop improvement. 15 Hours
Unit 4:
Evolution; Origin of life: Special creation theory, Theories of spontaneous generation or
abiogenesis. Theory of chemical evolution and spontaneous origine of life at molecular
level Oparin’s hypothesis Miller’s experiment, Protenoid microsphere.
Process of origin of life:Structure of cosmos, primitive earth, Prebiotic synthesis, Evolution
of progenote, Origine and evolution of protein RNA, DNA, Plasma membrane,
Origin of prokaryotes and eukaryotes (endo symbiotic hypothesis)
Theories of organic evolution: Lamarkism, Darwinism, Mutational and Modern concept of
Evolution. 15 Hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 17
Practical: Elective II Paper Code: BOTDSEP5.2B Paper Title : Genetics, Plant Breeding and evolution
Teaching Hours: 3Hrs / Week Marks: Th-40+IA-10
Credits :1
1. Mendel’s laws through seed ratios. Laboratory exercises in probability and chi-
square.
2. Chromosome mapping using point test cross data.
3. Pedigree analysis for dominant and recessive autosomal and sex linked traits.
4. Incomplete dominance and gene interaction through seed ratios (9:7, 9:6:1, 13:3,
15:1, 12:3:1, 9:3:4).
5. Study of aneuploidy: Down’s, Klinefelter’s and Turner’s syndromes through
photographs.
6. Photographs/Permanent Slides showing Translocation Ring, Laggards and
Inversion Bridge.
7. Hybridization techniques - Emasculation, Bagging (For demonstration only).
8. Induction of polyploidy conditions in plants (For demonstration only).
9. Genetic problems.
10. Genetic problems.
Suggested Readings
1. Gardner E J, Simmons M J, Snustad D P (2008).Principles of Genetics. 8th
Ed. Wiley- India.
2. Snustad, D. P. and Simmons, M.J. (2010). Principles of Genetics, John Wiley &
Sons Inc., India. 5th
edition.
3. Klug W S, Cummings MR, Spencer, C, Palladino, M (2011).Concepts of
Genetics, 10th Ed., Benjamin Cummings
4. Griffiths, A.J.F., Wessler, S.R., Carroll, S.B., Doebley, J. (2010). Introduction to
Genetic Analysis. W. H. Freemanand Co., U.S.A.10th
edition.
5. Pierce B A (2011) Genetics: A Conceptual Approach, 4th
Ed., Macmillan
Higher Education Learning
6. Singh, B. D. (2005). Plant Breeding: Principles and Methods. Kalyani Publishers. 7th
edition.
7. Chaudhari, H.K. (1984). Elementary Principles of Plant Breeding. Oxford – IBH. 2nd
edition.
8. Acquaah, G. (2007).Principles of Plant Genetics & Breeding. Blackwell Publishing.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 18
Fifth Semester B.Sc. (Botany) Skill Enhancement Course
Paper Code: BOTSEC5.3 Paper Title : Medicinal Botany
Teaching Hours: 2Hrs / Week Marks: Th-40+IA-10
Credits :2
Unit1:
History, Scope and Importance of Medicinal Plants. Indigenous Medicinal Sciences;
Definition and Scope-Ayurveda: History, origin, pancha mahabhutas, sapta dhatu and
tridosha concepts, Rasayana, plants used in ayurvedic treatments, Siddha:Origin of Siddha
medicinal systems, Basis of Siddha system, plants used in Siddha medicine. Unani:
History, concept: Umoor-e-tabiya, tumors treatments/therapy, polyherbal formulations.
Conservation of endangered and endemic medicinal plants. Definition: endemic and
endangered medicinal plants, Red list criteria; In situ conservation: Biosphere reserves,
sacredgroves, National Parks; Exsitu conservation: Botanic Gardens, Ethnomedicinal plant
Gardens.
15 Hours
Unit 2:
Propagation of Medicinal Plants: Objectives of the nursery, its classification, important
components of a nursery, sowing, pricking, use of green house for nursery production,
propagation through cuttings, layering, grafting and budding.
Ethnobotany and Folk medicines. Definition; Ethnobotany in India: Methods to study
ethnobotany; Applications of Ethnobotany: National interacts, Palaeo-ethnobotany. folk
medicines of ethnobotany, ethnomedicine, ethnoecology, ethnic communities of India.
Application of natural products to certain diseases- Jaundice, cardiac, infertility, diabetics,
Blood pressure andskindiseases. 15 Hours
Suggested Readings
1. Trivedi P C, 2006. Medicinal Plants: Ethnobotanical Approach, Agrobios, India.
2. Purohit and Vyas, 2008. Medicinal Plant Cultivation: A Scientific Approach, 2
nd edn.
Agrobios, India.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 19
Sixth Semester B.Sc. (Botany) Paper Code: BOTDSE6.1 Paper Title : Analytical Techniques in Plants
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Credits :3
Unit1:
Imaging and related techniques
Principles of microscopy; Light microscopy; Fluorescence microscopy; Confocal microscopy;
Use of fluorochromes: (a) Flow cytometry (FACS); (b) Applications of fluorescence microscopy:
Chromosome banding, FISH, chromosome painting; Transmission and Scanning electron
microscopy – sample preparation for electron microscopy, cryofixation, negative staining,
shadow casting, freeze fracture, freez eetching.
15 Hours Unit 2:
Cell fractionation
Centrifugation: Differential and density gradient centrifugation, sucrose density gradient, CsCl2
gradient, analytical centrifugation, ultracentrifugation, marker enzymes.
Radioisotopes
Use in biological research, auto-radiography, pulse chase experiment.
Spectrophotometry
Principle and its application in biological research.
15 Hours
Unit3:
Chromatography
Principle; Paper chromatography; Column chromatography, TLC, GLC, HPLC, Ion- exchange
chromatography; Molecular sieve chromatography; Affinity chromatography.
Characterization of proteins and nucleic acids
Mass spectrometry; X-ray diffraction; X-ray crystallography; Characterization of proteins and
nucleic acids; Electrophoresis: AGE, PAGE, SDS-PAGE
15 Hours
Unit4:
Biostatistics
Statistics, data, population, samples, parameters; Representation of Data: Tabular, Graphical;
Measures of central tendency: Arithmetic mean, mode, median; Measures of dispersion: Range,
mean deviation, variation, standard deviation; Chi-square test for goodness of fit.
15 Hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 20
Practical Paper Code: BOTDSEP 6.1 Paper Title : Analytical Techniques in Plants
Teaching Hours: 3Hrs / Week Marks: Th-80+IA-20
Credits :3
1. Study of Blotting techniques: Southern, Northern and Western, DNA
fingerprinting, DNA sequencing, PCR through photographs.
2. To separate Amino acids by paper chromatography.
3. To separate chlorophyll pigments by paper chromatography.
4. To estimate protein concentration through Lowry’s methods.
5. Study of different microscopic techniques using photographs/micrographs (freeze
fracture, freeze etching, negative staining, positive staining, fluorescence and
FISH).
6. Preparation of permanent slides (double staining).
7. Calculation of central tendencies (Mean, Mode and Median)
8. Calculation of standard deviation.
9. Calculation of ANOVA (Analysis of variance- one way ANOVA)
Suggested Readings
1. Plummer, D.T. (1996). An Introduction to Practical Biochemistry. Tata Mc Graw-
Hill Publishing Co. Ltd. New Delhi. 3rd
edition.
2. Ruzin, S.E. (1999). Plant Microtechnique and Microscopy, Oxford University
Press, New York. U.S.A.
3. Ausubel, F., Brent, R., Kingston, R. E., Moore, D.D., Seidman, J.G., Smith, J.A.,
Struhl, K. (1995). Short Protocols in Molecular Biology. John Wiley & Sons. 3rd
edition.
4. Zar, J.H. (2012). Biostatistical Analysis. Pearson Publication. U.S.A. 4thedition.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 21
Sixth Semester B.Sc. (Botany) Elective III
Paper Code: BOTDSET6.2A Paper Title :Research Methodology
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Credits :3 Unit1:
Basic concepts of research
Research-definition and types of research (Descriptive vs analytical; applied vs fundamental;
quantitative vs qualitative; conceptual vs empirical ). Research methods vs methodology.
Literature-review and its consolidation; Library research; field research; laboratory research.
15 hours
Unit2:
General laboratory practices
Common calculations in botany laboratories. Understanding the details on the label of
reagent bottles. Molarity and normality of common acids and bases. Preparation of
solutions. Dilutions. Percentage solutions. Molar, molal and normal solutions. Technique
of handling micropipettes; Knowledge about common toxic chemicals and safety measures
in their handling.
Data collection and documentation of observations
Maintaining a laboratory record; Tabulation and generation of graphs. Imaging of tissue
specimens and application of scale bars. The art of field photography.
15 hours
Unit3:
Overview of Biological Problems
History; Key biology research areas, Model organisms in biology (A Brief overview):
Genetics, Physiology, Biochemistry, Molecular Biology, Cell Biology, Genomics,
Proteomics-Transcriptional regulatory network.
Methods to study plant cell/tissue structure
Whole mounts, peel mounts, squash preparations, clearing, maceration and sectioning;
Tissue preparation: living vs fixed, physical vs chemical fixation, coagulating fixatives,
non- coagulant fixatives; tissue dehydration using graded solvent series; Paraffin and
plastic infiltration; Preparation of thin and ultrathin sections.
15 hours
Unit 4:
Plant microtechniques
Staining procedures, classification and chemistry of stains.Staining equipment. Reactive
dyes and fluorochromes (including genetically engineered protein
labeling with GFP and other tags). Cytogenetic techniques with squashed
plant materials.
The art of scientific writing and its presentation
Numbers, units, abbreviations and nomenclature used in scientific
writing. Writingre ferences. Powerpoint presentation. Poster presentation.
Scientific writing and ethics, Introduction to copyright-academic
misconduct/plagiarism.
15 hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus
Page | 22
Practical: Elective III Paper Code: BOTDSE P 6.2A Paper Title :Research Methodology
Teaching Hours: 3Hrs / Week Marks: Th-40+IA-10
Credits :1 1. Basic introduction to laboratory safety.
2. Research techniques.
a. Microscopic techniques.
b. Chromatography technique.
c. Separation technique.
3. Experimental design.
4. Sampling techniques.
5. Introduction to research methodology.
6. Introduction to research ethics.
7. Introduction to Intellectual property rights.
8. Skill of writing Scientific/research paper.
9. Research paper communication.
10. Search engines and research databases.
11. Academic misconduct and plagiarism
Suggested Readings
1. Dawson, C. (2002). Practical research methods. UBS Publishers, New
Delhi.
2. Stapleton, P., Yondeowei, A., Mukanyange, J., Houten, H.
(1995). Scientific writing for agricultural research scientists – a
training reference manual. West Africa Rice Development
Association, Hong Kong.
3. Ruzin, S.E. (1999). Plant microtechnique and microscopy. Oxford
University Press, New York, U.S.A.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus
Page | 23
Sixth Semester B.Sc. (Botany) Elective IV
Paper Code: BOTDSET6.2B Paper Title : Biofertilizers and Organic Farming
Teaching Hours: 4Hrs / Week Marks: Th-80+IA-20
Teaching Hours:60 Credits :3
Unit 1:
Manures and Biofertilizers: Need for fertilizers, manures. Manure composition. Manures for
crop productivity.
Differences between fertilizers and biofertilizers: pH changes and water contamination.
Organic Farming: Organic farming – Green manuring and organic fertilizers, Recycling of
bio-degradable
municipal, agricultural and industrial wastes, Biocompost making- types, method of
vermicomposting, Panchakavya. Biological pest control (neem)
15 Hours
Unit 2:
Bacterial Biofertilizers: General account on the microbes used as bio fertilizer. Azotobacter:
classification,
characteristics– crop response to Azotobacter inoculum, maintenance and mass multiplication.
Rhizobium – isolation, identification, mass multiplication, carrier based inoculants, Actinorrhizal
symbiosis.
15 Hours
Unit 3:
Algal Biofertilizers; Azospirillum: isolation and mass multiplication – carrier based
inoculant, associative effect of different microorganisms. Azolla and Anabaena azollae association,
nitrogen fixation, factors affecting growth, Azolla in rice cultivation.
15 Hours
Unit 4:
Fungal Biofertilizers: Mycorrhizal association, types of mycorrhizal association, taxonomy,
occurrence and
distribution, phosphorus nutrition, growth and yield, colonization of VAM – isolation and inoculum
production of VAM, and its influence on growth and yield of crop plants.
15 Hours
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus
Page | 24
Practical: Elective IV
Paper Code: BOTDSE P 6.2B Paper Title : Biofertilizers and Organic Farming
Teaching Hours: 4Hrs / Week Marks: Th-40+IA-10
Credits :1
PRACTICAL
1. Isolation and culture of Rhizobium and Algae.
2. Anatomy of Azolla leaf and identification of Anabaena azollae.
3. Mass cultivation of Azolla.
4. Isolation and culture of VAM.
5. Compost preparation- green manure, vermicompost.
6. Estimation of mineral content of biomass from vermicompost manure(pH, Nitrate,Nitrite,
sulphate, Calcium, magnesium, Ammonia, Silica)
7. Isolation of cyanobacteria from soil.
8. Isolation of Fungi from soil
9. Isolation of Bacteria from soil
Suggested Readings
1. Dubey R.C. 2005. A Text book of Biotechnology. S.Chand & Co. New Delhi.
2. Kumaresan V. 2005. Biotechnology. Saras Publications. New Delhi.
3. John Jothi Prakash E. 2004. Outlines of Plant Biotechnology. Emkay Publication. New
Delhi.
4. Sathe T.V. 2004. Vermiculture and Organic Farming. Daya Publishers. New Delhi.
5. Subha Rao N.S. 2000. Soil Microbiology, Oxford & IBH Publishers. New Delhi.
6. Vayas S.C, Vayas S. and Modi H.A. 1998.Bio-fertilizers and organic Farming Akta
Prakashan. Nadiad.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus
Page | 25
Sixth Semester B.Sc. (Botany) Skill Enhancement Course
Paper Code: BOTSEC6.3 Paper Title : Ethnobotany
Teaching Hours: 2Hrs / Week Marks: Th-40+IA-10
Teaching Hours:30 Credits :2
Unit1:
Introduction to Ethnobotany: Introduction, concept, scope and objectives; Ethnobotany as
an interdisciplinary science. The relevance of ethnobotany in the present context; Major and minor
ethnic groups or Tribals of India, and their life styles. Plants used by the tribals: a)Food plants
b)intoxicants and beverages c)Resins and oils and miscellaneous uses.
Ethnobotany and legal aspects
Ethnobotany as a tool to protect interests of ethnic groups. Sharing of wealth concept with few
examples from India. Biopiracy, Intellectual Property Rights and Traditional Knowledge.
15 Hours Unit 2:
Methodology of Ethnobotanical studies
Field work b) Herbarium c) Ancient Literature d) Archaeological findings e) Temples and sacred
places.
Role of ethnobotany in modern Medicine
Medico-ethnobotanical sources in India; Significance of the following plants in ethno botanical
practices (along with their habitat and morphology) a) Azadiractha indica b) Ocimum sanctum c)
Vitex negundo. d) Gloriosa superbae) Tribulus terrestris f) Pongamia pinnata g) Cassia auriculata
h) Indigofera tinctoria. Role of ethnobotany in modern medicine with special example Rauvolfia
sepentina, Trichopus zeylanicus, Artemisia, Withania.
Role of ethnic groups in conservation of plant genetic resources. Endangered taxa and forest
management (participatory forest management). 15 Hours
Suggested Readings
1) S.K. Jain, Manual of Ethnobotany, Scientific Publishers, Jodhpur, 1995.
2) S. K. Jain (ed.) Glimpses of Indian. Ethnobotny, Oxfordand IBH, New Delhi–1981
3) Lone et al,.Palaeoethnobotany
4) S. K. Jain (ed.)1989.Methods and approaches in ethnobotany. Society of ethnobotanists,
Lucknow, India.
5) S. K. Jain, 1990. Contributions of Indian ethnobotny. Scientific publishers, Jodhpur.
6) Colton C.M. 1997. Ethnobotany – Principles and applications. John Wiley and
sons – Chichester
7) Rama Ro, N and A.N. Henry (1996). The Ethnobotany of Eastern Ghats in
Andhra Pradesh, India. Botanical Survey of India. Howrah. 8) Rajiv K. Sinha – Ethnobotany The
Renaissance of Traditional Herbal Medicine–INA–SHREE Publishers, Jaipur-19969)
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 26
Question Paper pattern
First Semester B.Sc. Degree Examination, December 2020
(CBCS Scheme-2020-21: Regular)
BOTANY
BOTDSC T11: Biodiversity (Microbes, Algae, Fungi and Archegoniate)
Time: 3 hours Max. Marks: 80
1. Answer any 10 sub question 10 x 2 = 20
i.
ii.
iii.
iv.
v.
vi.
vii.
viii.
ix.
x.
xi.
xii.
2.
(a)
5 marks
(b) 10 marks
OR
3. (a)
5 marks (b) 10 marks
4 (a)
5 marks (b) 10 marks
OR 5 (a)
5 marks (b) 10 marks
6. (a)
5 marks
(b) 10 marks
OR
7. (a)
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 27
5 marks
(b) 10 marks
8. (a)
5 marks
(b) 10 marks
OR
9. (a)
5 marks
(b) 10 marks
*******
Instruction to set the question paper.
1. Question number 1 has 12 sub questions consisting of 3 questions from each unit. Each question carries two marks.
Student has to answer any ten questions.
2. Question number 2 and 3 are from unit I.
3. Question number 4 and 5 are from unit II.
4. Question number 6 and 7 are from unit III
5. Question number 8 and 9 are from unit IV.
6. Student has to answer either question number 2 or 3, 4 or 5, 6 or 7 and 8 or 9.
Note: In case student answered both the questions from the same unit in full or part, highest marks from any
one choice has to be considered.
Rani Channamma University, Belagavi B.Sc. (CBCS) Botany Syllabus Page | 28
Question paper pattern for skill enhancement course, SEC
Third Semester B.Sc. Degree Examination, December 2021
(CBCS Scheme-2020-21: Regular)
Botany
BOTSEC T32: Skill Enhancement Course
Time: 2 hours Max. Marks: 40
1. Answer any 5 sub question 5 x 2 = 10
i.
ii.
iii.
iv.
v.
vi.
2.
(a)
5 marks
(b) 10 marks
OR
3. (a)
5 marks (b) 10 marks
4 (a)
5 marks (b) 10 marks
OR 5 (a)
5 marks (b) 10 marks
Instruction to set the question paper.
7. Question number 1 has 6 sub questions consisting of 3 questions from each unit. Each question carries two marks.
Student has to answer any five questions.
8. Question number 2 and 3 is from unit I.
9. Question number 4 and 5 is from unit II.
10. Student has to answer either question number 2 or 3, 4 or 5.
Note: In case student answered both the question from the same unit in full or part, highest marks from any
one choice has to be considered.
Recommended